CN213957500U - Easy-to-dismount antenna testing device with high-stability connectivity - Google Patents

Abstract

The utility model discloses a high-stability-connectivity easy-disassembly antenna testing device, which comprises a sliding module used for supporting a carrier, and a plurality of detection components arranged above the sliding module and used for detecting and connecting antenna joints; the detection assembly comprises a fixed block, a movable block movably attached to one side of the fixed block, and an elastic guide column group arranged on the other side of the fixed block; the elastic guide post group runs through fixed block elastic connection to movable block terminal surface, the fixed inside test joint that runs through its inside that is equipped with of fixed block, be equipped with the spacing groove of dodging test joint in the movable block, spacing groove and the corresponding joint of antenna terminal, the patch cord of network tester is connected to test joint one end, and antenna terminal is inserted to test joint's the other end. The utility model discloses a connect antenna stable in structure, it is accurate to detect data, and easily unloads.

Description

Easy-to-dismount antenna testing device with high-stability connectivity

Technical Field

The utility model belongs to the technical field of the antenna test, especially, relate to a high stable connectivity readily removable formula antenna testing arrangement.

Background

A positioning jig is usually adopted in the antenna performance test, the interface end of the antenna is connected with a network tester through an RF connecting line to realize detection, the interface end of the antenna needs to be frequently butted to the RF connecting line, and when the connection is not in place or a connection gap exists, the detection data is inaccurate; when the connection is too tight, the manual work is difficult to unload, the detection is time-consuming, and a rapid detection flow cannot be formed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the technical problem, and provide easy removable formula antenna testing arrangement of high stable connectivity to realize connecting antenna stable in structure, it is accurate to detect data, and easily unloads. In order to achieve the above purpose, the utility model discloses technical scheme as follows:

the easy-to-dismount antenna testing device with high stable connectivity comprises a sliding module for supporting a carrier, and a plurality of detection components which are arranged above the sliding module and used for detecting and connecting antenna joints; the detection assembly comprises a fixed block, a movable block movably attached to one side of the fixed block, and an elastic guide column group arranged on the other side of the fixed block; the elastic guide post group runs through fixed block elastic connection to movable block terminal surface, the fixed inside test joint that runs through its inside that is equipped with of fixed block, be equipped with the spacing groove of dodging test joint in the movable block, spacing groove and the corresponding joint of antenna terminal, the patch cord of network tester is connected to test joint one end, and antenna terminal is inserted to test joint's the other end.

Specifically, the sliding module comprises a workbench, linear slide rails symmetrically arranged on the workbench, a carrier plate moving along the linear slide rails, and limiting blocks respectively arranged at the front part and the rear part of the linear slide rails; magnets are arranged on the opposite sides of the two limiting blocks respectively, a positioning block located between the two limiting blocks is arranged at the bottom of the carrier plate, and the positioning block is movably attached to the limiting blocks and provided with end faces of the magnets.

Specifically, corner wrapping pieces are respectively arranged at the peripheral corners of the support plate, and a carrier limited by the corner wrapping pieces is arranged on the surface of the support plate.

Specifically, a convex surface area is arranged in the middle of the surface of the carrier, and sunken areas are respectively arranged between the convex surface area and the peripheral vertex angles of the carrier.

Specifically, the surface of the carrier is provided with an antenna, and the antenna comprises a body enclosing into a frame body, bosses arranged at the peripheral vertex angles of the body, and a plurality of antenna joints arranged on one side edge of the body and extending outwards.

Specifically, the body docks with the periphery profile modeling of convex surface region, and the boss docks with the corresponding profile modeling of invagination region, and a plurality of antenna joint locate the carrier outside up.

Specifically, the side of slip module is equipped with the riser that is fixed in on the workstation, and the top of riser is equipped with the fixed plate that the level was arranged, and the side of riser is equipped with the mounting bracket that is used for the patch cord of erection joint network tester.

Specifically, the movable block is correspondingly attached to the fixed block in a copying mode, and a group of guide holes used for being filled with the elastic guide column group are formed in the movable block.

Specifically, the elastic guide column group comprises two linear bearings arranged in the fixed block, a guide column penetrating through each linear bearing, a push block arranged on the guide column and deviating from the end part of the movable block, and springs sleeved on the guide column and respectively abutted to the linear bearings and the push block, and the end part of the guide column extends out of a guide hole for fixing the linear bearings.

Specifically, the side edge of the limiting groove is provided with a notch communicated with the outside.

Compared with the prior art, the utility model discloses high stable connectivity readily removable formula antenna testing arrangement's beneficial effect mainly embodies:

the sliding module is arranged to ensure that the carrier is stably transported to the detection station; fixed plate below sets up the detection operation that many detection subassembly were applicable to different antenna joint positions, and movable block cooperation elasticity guide post group among the detection subassembly realizes that antenna joint's stable connection to test connection carries out the function and detects to and easily break away from the movable block and unload, save the labour of artifical dismouting, avoid damaging antenna joint.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of the sliding module in the present embodiment;

FIG. 3 is a schematic view of the carrier structure in this embodiment;

FIG. 4 is a schematic diagram of an antenna structure in this embodiment;

FIG. 5 is a schematic front view of the detecting assembly in this embodiment;

FIG. 6 is a schematic diagram of a reverse structure of the detecting module in this embodiment

FIG. 7 is a schematic diagram of a movable plate for removing the detecting component in this embodiment

The figures in the drawings represent:

the device comprises a sliding module 1, a workbench 11, a linear slide rail 12, a carrier plate 13, a limiting block 14, a magnet 15, a positioning block 16, a corner wrapping part 17, a detection component 2, a fixing block 21, a movable block 22, a test joint 23, a limiting groove 24, a guide hole 25, a notch 26, a carrier 3, a convex surface area 31, an invagination area 32, a body 4, a boss 41, an antenna joint 42, a vertical plate 5, a fixed plate 51, a transfer line 52, a mounting rack 53, an extension block 54, a bending piece 55, a linear bearing 6, a guide pillar 61, a push block 62 and a spring 63.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, and not all embodiments.

Example (b):

referring to fig. 1-7, the present embodiment is a high-stability easy-to-detach antenna testing apparatus, which includes a sliding module 1 for supporting a carrier, and a plurality of detecting elements 2 disposed above the sliding module 1 for detecting and connecting antenna connectors.

The sliding module 1 comprises a workbench 11, linear slide rails 12 symmetrically arranged on the workbench 11, a carrier plate 13 moving along the linear slide rails 12, and limiting blocks 14 respectively arranged at the front part and the rear part of the linear slide rails 12; magnets 15 are respectively arranged on opposite sides of the two limit blocks 13, a positioning block 16 positioned between the two limit blocks 14 is arranged at the bottom of the carrier plate 13, and the positioning block 16 is movably attached to the limit blocks and is provided with end faces of the magnets 15 for accurately limiting the position of the carrier plate 13.

The corner wrapping pieces 17 are respectively arranged at the peripheral corners of the carrier plate 13, and the carrier 3 limited by the corner wrapping pieces 17 is arranged on the surface of the carrier plate 13.

The surface middle part of carrier 3 is equipped with convex surface region 31, is equipped with sunken region 32 between the apex angle position all around of convex surface region 31 and carrier 3 respectively, and the carrier 3 surface is equipped with the antenna, and the antenna is including enclosing body 4 of synthetic framework, locating the boss 41 of the apex angle position all around of body 4 and locating a plurality of antenna joint 42 of body 4 side upward extension.

The body 4 is in profile butt joint with the periphery of the convex area 31, the boss 41 is in corresponding profile butt joint with the recessed area 32, and the plurality of antenna joints 42 are arranged on the outside of the carrier 3 upwards.

The side of the sliding module 1 is provided with a vertical plate 5 fixed on the workbench 11, and the top of the vertical plate 5 is provided with a fixing plate 51 horizontally arranged. The side edge of the vertical plate 5 is provided with a mounting rack 53 for mounting a patch cord 52 connected with a network tester.

The detection assembly 2 comprises a fixed block 21 detachably connected with the end part of the fixed plate 51 and arranged downwards, a movable block 22 movably attached to one side of the fixed block 21, and an elastic guide post group arranged on the other side of the fixed block 21; the elastic guide column group penetrates through the fixed block 21 and is connected to the end face of the movable block 22, the test connector 23 penetrating through the fixed block 21 and connected with the patch cord 52 of the network tester is fixedly arranged in the fixed block 21, the limiting groove 24 avoiding the test connector 23 is arranged in the movable block 22, and the limiting groove 24 is correspondingly clamped with the antenna connector 42.

An extending block 54 is arranged at the end part of the fixing plate 51, a bending piece 55 is arranged between the extending block 54 and the fixing plate 51, and two ends of the bending piece 55 are respectively locked and fixed to the extending block 54 and the fixing plate 51 through mounting pieces. The installation part of the embodiment is a bolt and nut assembly.

The movable block 22 is correspondingly attached to the fixed block 21 in a profiling mode, and a group of guide holes 25 used for containing the elastic guide column group are formed in the movable block 22.

The elastic guide column group comprises two linear bearings 6 arranged in the fixed block 21, guide columns 61 penetrating through the linear bearings 6, push blocks 62 arranged at the end parts, deviating from the movable block 22, of the guide columns 61, and springs 63 sleeved on the guide columns 61 and respectively abutted between the linear bearings 6 and the push blocks 62. The end of the guide post 61 extends out of the linear bearing 6 and is fixedly installed in the guide hole 25.

The side of the limit groove 24 is provided with a notch 26 communicated with the outside, and the antenna joint 42 is convenient to be inserted into the limit groove 24 and connected with the test joint 23.

When the embodiment is applied, the antenna is positioned on the carrier 3, the carrier 3 moves to the lower part of the fixed plate 51 along with the sliding module 1, the antenna joint 42 is connected to the limiting groove 24 in the movable block 22, the network tester detects the performance of the antenna through the test joint 23, after the detection is finished, the push block 62 is pushed to drive the guide post 61 to extend into the fixed block 21, so that the movable block 22 is pushed to be separated from the fixed block 21, the movable block 22 drives the antenna joint 42 to be separated from the test joint 23, and the function of easy unloading is realized; after the antenna connector 42 is detached, the guide post 61 is restored by the spring 63 to drive the movable block 22 to be attached to the fixed block 21 again.

In the embodiment, the sliding module 1 is arranged to ensure that the carrier 3 is stably transported to the detection station; fixed plate 51 below sets up the detection operation that many detection subassembly 2 are applicable to different antenna joint 42 positions, and movable block 22 cooperation elasticity guide post group among the detection subassembly 2 realizes that antenna joint 42's stable connection to test connector 23 carries out the function and detects to and easily break away from movable block 22 and unload, save the labour of artifical dismouting, avoid damaging antenna joint 42.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. High stable connectivity readily removable formula antenna test device, its characterized in that: the device comprises a sliding module used for supporting a carrier, and a plurality of detection components which are arranged above the sliding module and used for detecting and connecting antenna joints; the detection assembly comprises a fixed block, a movable block movably attached to one side of the fixed block, and an elastic guide column group arranged on the other side of the fixed block; the elastic guide post group runs through fixed block elastic connection to movable block terminal surface, the fixed inside test joint that runs through its inside that is equipped with of fixed block, be equipped with the spacing groove of dodging test joint in the movable block, spacing groove and the corresponding joint of antenna terminal, the patch cord of network tester is connected to test joint one end, and antenna terminal is inserted to test joint's the other end.

2. The device for testing a high-stability connective detachable antenna according to claim 1, wherein: the sliding module comprises a workbench, linear slide rails symmetrically arranged on the workbench, a support plate moving along the linear slide rails, and limiting blocks respectively arranged at the front part and the rear part of the linear slide rails; magnets are arranged on the opposite sides of the two limiting blocks respectively, a positioning block located between the two limiting blocks is arranged at the bottom of the carrier plate, and the positioning block is movably attached to the limiting blocks and provided with end faces of the magnets.

3. The device for testing a high-stability connective detachable antenna according to claim 2, wherein: corner wrapping pieces are respectively arranged at the peripheral corners of the support plate, and carriers limited by the corner wrapping pieces are arranged on the surface of the support plate.

4. The device for testing a highly stable and easily detachable antenna according to claim 3, wherein: the surface middle part of carrier is equipped with the convex surface region, is equipped with the sunken region respectively between the apex angle position all around of convex surface region and carrier.

5. The device for testing a highly stable and easily detachable antenna according to claim 4, wherein: the surface of the carrier is provided with an antenna, and the antenna comprises a body enclosing a frame body, bosses arranged at the peripheral vertex angles of the body and a plurality of antenna joints arranged on one side edge of the body and extending outwards.

6. The device for testing a highly stable and easily detachable antenna according to claim 5, wherein: the body is in butt joint with the periphery profile modeling of convex surface region, and the boss is in butt joint with the corresponding profile modeling of invagination region, and a plurality of antenna joint locate the carrier outside up.

7. The device for testing a high-stability connective detachable antenna according to claim 1, wherein: the side of slip module is equipped with the riser that is fixed in on the workstation, and the top of riser is equipped with the fixed plate that the level was arranged, and the side of riser is equipped with the mounting bracket that is used for the patch cord of installation connection network tester.

8. The device for testing a high-stability connective detachable antenna according to claim 1, wherein: the movable block is correspondingly attached to the fixed block in a copying mode, and a group of guide holes used for being filled with the elastic guide column group are formed in the movable block.

9. The device for testing a high-stability connective detachable antenna according to claim 8, wherein: the elastic guide column group comprises two linear bearings arranged in the fixed block, a guide column penetrating through each linear bearing, a push block arranged on the end part of the guide column, which deviates from the movable block, and springs sleeved on the guide column and respectively abutted between the linear bearings and the push block, and the end part of the guide column extends out of a guide hole for fixing the linear bearings.

10. The device for testing a high-stability connective detachable antenna according to claim 1, wherein: and a notch communicated with the outside is formed in the side edge of the limiting groove.

Images